Future Facilities, the leading provider of thermal simulation software for critical facilities and electronics components, has released a case study showing that its new CFD software for electronics cooling design, 6SigmaET solves the problem of how to shrink electronics devices that generate heat.

6SigmaET has the modeling capabilities necessary to accurately predict heat transfer and resulting temperature distribution for a variety of design configurations. - In this case, 6SigmaET was able to predict temperatures within 4% of the experimental values, indicating a high level of confidence in the results obtained

6SigmaET has the modeling capabilities necessary to accurately predict heat transfer and resulting temperature distribution for a variety of design configurations. - In this case, 6SigmaET was able to predict temperatures within 4% of the experimental values, indicating a high level of confidence in the results obtained

Electronics design engineers face complex tradeoffs when they design small high-power-consuming lighting devices like LEDs. The market wants smaller, brighter and more reliable lighting devices. But those features cost more. Can designing the new generation of LEDs using simulation reduce their cost and improve their performance? The answer is, yes! Thermal simulation can solve electronic device design problems.

The Future Facilities’ Case Study released today describes how Advanced Thermal Solutions-Europe, BV (ATS-Europe, BV), a leading European design consultant, used Future Facilities’ 6SigmaET software to model lamp performance while simultaneously reducing heat sink cost, selecting the optimal high-performance coating for the LED’s heat sink, and matching the LED to the correct circuit board.

"At ATS-Europe BV, we are very pleased with the capabilities of the 6SigmaET CFD software module,” said Norbert Engelberts, Director, ATS-Europe, BV. “6SigmaET is capable of analyzing all kinds of issues and features within the electronics cooling field including non-rectangular shapes, like those found in LED light fixtures. A comprehensive standalone tool, 6SigmaET doesn't need additional MCAD software for data entry, which means it is especially straightforward to use. The software is fast, fits our thermal modeling needs perfectly, and experimental testing in our laboratories has proven that the simulation results predict component temperatures with accuracy”.

Engelberts continued, “We are very satisfied with the excellent service from the Future Facilities team, and with 6SigmaET which helps us better serve our customer need.

“This case study shows how the latest member of our 6SigmaDC suite of thermal simulation software, 6SigmaET, can solve the difficult problems of electronic device design,” said Sherman Ikemoto, General Manager, Future Facilities North America.

Ikemoto continued, “6SigmaET builds on its predecessors 6SigmaDC and 6SigmaFM, and applies our world-leading cooling simulation technology to the business and engineering problems of moving and removing heat from electronic devices.” To learn more about 6SigmaET please call the company on 0207 840 9540 or visit http://www.futurefacilities.com/.

Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP as one of the leading partners for research and development for surface technologies and organic electronics and Sefar AG, a leading manufacturer of precision fabrics from monofilaments, developed a roll-to-roll ...
Read more »